Nickel Sulfamate Processes

• Ready-to-use Nickel Sulfamate Bath
  No dummy plating or activated carbon treatment necessary. Extremely ductile deposits. Allows the use high current densities.
• Nickel Sulfamate Concentrade High purity solution. No dummy plating or activated carbon treatment necessary. High nickel concentration 180 g/l to 116 g/kg respectively.
   
• Wetting agents for air and mechanically agitated Nickel-and Cobalt Sulfamate Baths Reduces pitting in the nickel or cobalt deposits. No codeposition. Keeps anode bags clean.
   
• Additives for Nickel-Sulfamate Plating Baths Produces compressive strength in nickel sulfamate deposits. Produces hard deposits. Increases wear resistance. Lengthens the service life of high strength metals. Widens operating window when metal or organic contaminates are present. The nickel deposits are more ressitant to high temperatures (up to 230° C).
   
• Nickel Strike-Sulfamate based Nickel strike baths to produce thin, ductile, aktive deposits on metal substrates.

Electroplating Baths 

• BRIGHT CYANIDE COPPER

• BRIGHT ACID COPPER

• SEMI BRIGHT NICKEL

• FULL BRIGHT NICKEL

• DECORATIVE CHROME 

• Brightener additives for cyanide zinc rack and barrel baths
  Exceptional brightness. Best suited for chromates. Good temperature resistance. Extremely economical to use.

• Brightener for cyanide rack and barrell zinc plating baths
  Consists of organic components only and contains no glues, gelatine or foreign metals. Extremely stable. No decomposition after long production breaks. The throwing power is similar to brightener-free baths. The zinc deposit is very densely deposited, because, the crystal structure is not affected by the decomposition products of the brightener.